Disclosed herein is a panelboard guard assembly configured to restrict access to a panelboard having a cover and a door defined therein, the cover having first and second side edges. The panelboard guard assembly includes a first strap, a second strap and an adjusting mechanism. The first strap has a first outer end and a first inner end. The second strap has a second outer end and a second inner end. The adjusting mechanism extends between and couples the first strap and the second strap at the first and second inner ends.
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15. A panelboard guard assembly configured to restrict access to a panelboard having a cover and a door defined therein by using a safety lockout, the cover having first and second side boundaries, the panelboard guard assembly comprising:
a first member including a first outer end comprising a first open channel shaped to extend about and releasably receive the first side boundary to couple the first member to the first side boundary;
a second member including a second outer end comprising a second open channel shaped to extend about and releasably receive the second side boundary to couple the second member to the second side boundary; and
an adjustment mechanism operably coupling the first member to the second member,
wherein the adjustment mechanism is configured to:
couple to the first member via the safety lockout; and
change a distance between the first outer end and the second outer end.
1. A panelboard guard assembly configured to restrict access to a panelboard having a cover and a door defined therein by using a safety lockout, the cover having first and second side boundaries, the panelboard guard assembly comprising:
a first member including a first outer end and a first portion, the first outer end comprising a first open channel, the first open channel shaped to extend about and releasably receive the first side boundary to couple the first member to the first side boundary;
a second member including a second outer end and a second portion, the second outer end comprising a second open channel shaped to extend about and releasably receive the second side boundary to couple the second member to the second side boundary; and
an adjustment member extending between the first portion and the second portion,
wherein movement of the adjustment member relative to both the first portion and the second portion results in a change in a distance between the first outer end and the second outer end.
2. The panelboard guard assembly of
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The present application is a continuation of U.S. application Ser. No. 13/768,957 filed Feb. 15, 2013, now U.S. Pat. No. 9,284,760, which application claims priority to and the benefit under 35 U.S.C. § 119(e) of U.S. Provisional Patent Application No. 61/602,436, which was filed on Feb. 23, 2012, and is entitled Electrical Panelboard Guard. The contents of the above-mentioned patent applications are hereby incorporated by reference in their entireties.
The present disclosure relates to panelboards and, more particularly, devices and methods for securing panelboard guards.
Lockout and tag-out is a safety process maintenance personnel are required to follow to ensure electrical maintenance safety. A number of procedures outlined by the Occupational Safety and Health Administration (OSHA) are designed to prevent an unexpected startup of electrical machinery or equipment during maintenance and repairs. One such safety regulation requires access to circuit breakers and panelboards be controlled by electricians working on circuitry or equipment. Currently this is accomplished by a number of different methods. For example, locks are provided on de-energized or turned off circuit breakers or de-energized circuit breakers are tagged and then access to panelboards is controlled by simply locking panelboards or doors to electrical closets, rooms or areas where panelboards are located.
However, all of these methods present a number of challenges. To begin with, the use of breaker locks, which are usually supplied by a third party, requires that such locks be built specifically for the breakers being locked. Because of the extremely numerous breaker designs that have been employed in facilities over the years, it is often not feasible to have a stock of the vast variety of breaker lockouts on hand, especially in any amount.
As the design of the circuit breakers change, a portion of these circuit breakers become obsolete. Also, new or unknown lockout requirement arise. Whether faced with obsolescence or new or unknown lockout requirements, procuring a specific breaker lockout will still be required, which often takes a significant amount of time even if the needed lock is available at all. Furthermore, the breaker lock-outs are often costly and not very durable.
Although the panelboards are typically provided with a locking handle or a latch, the same key is often supplied by each manufacturer for their particular line of panelboards. In a large commercial building setting in which hundreds of panels are located, hundreds of sets of identical keys may be available to a host of individuals, thereby making controlling of the access to the panelboards very difficult. Also, because each panelboard typically comes with only a single keyed latch, the use of a multiple user lockout or tag-out hasps, such as those required in crew or multi-discipline scenarios, is not possible. While controlling access to electrical closets, rooms or areas with panelboards is yet another option for limiting access to a panelboard, such control is becoming more of an issue as building management or security personnel are becoming more reluctant to relinquish keys in today's heightened security environment. Also, ensuring that all personnel follow instituted procedures for locking out these areas is often difficult.
Thus, there is a need in the art for a device for, and a method of, locking panelboards easily and securely to ensure compliance with safety regulations.
Disclosed herein is a panelboard guard assembly configured to restrict access to a panelboard having a cover and a door defined therein, the cover having first and second side edges. In one embodiment, the panelboard guard assembly includes a first strap, a second strap and an adjusting mechanism. The first strap has a first outer end and a first inner end. The second strap has a second outer end and a second inner end. The adjusting mechanism extends between and couples the first strap and the second strap at the first and second inner ends.
Depending on the embodiment, the first strap may further include a first attachment structure at the first outer end, the first attachment structure being configured to attach the first strap to the panelboard cover. Similarly, the second strap may further include a second attachment structure at the second outer end, the second attachment structure being configured to attach the second strap to the panelboard cover. The first and the second attachment structures may each be configured to respectively engage the first and second side edges of the panelboard cover.
Depending on the embodiment, the first and second attachment structures each define a respective gap configured to receive therein at least a portion of the panelboard cover. Depending on the embodiment, the first and second attachment structures each include a structure configured to extend underneath the panelboard cover at the respective side edge. Such a structure configured to extend underneath the panelboard cover may be formed of an electrically nonconductive material. Additionally or alternatively, such a structure configured to extend underneath the cover may include a notch defined therein, thereby allowing the straps to be located over the head of a panelboard cover screw, the shaft of the screw being received in the notch.
Depending on the embodiment, the structure configured to extend underneath the cover is a wrap around mounting structure. The wrap around mounting structure has an L-shaped member having a short portion and a long portion. The short portion of the L-shaped member is interposed between a first wall and a second wall of the respective strap. The L-shaped member may be constructed from a non-conductive material.
Depending on the embodiment, the adjusting mechanism includes a threaded shaft. The adjusting mechanism is rotatably coupled to the first inner end and threadably coupled to the second inner end. Rotating the adjusting mechanism in a first direction decreases the overall length of the assembly and rotating the adjusting mechanism in a second direction opposite the first direction increases the overall length.
Depending on the embodiment, the adjusting mechanism includes an end configured to couple with at least one of a safety lockout padlock or a safety lockout hasp. For example, the end of the adjusting mechanism may include an eyebolt hole through which the at least one of a safety lockout padlock or a safety lockout hasp can extend. The first strap may be configured such that the at least one of a safety lockout padlock or a safety lockout hasp extends around a portion of the first strap while being coupled to the end of the adjusting mechanism.
Depending on the embodiment, the adjusting mechanism may include a shaft with a series of holes located along the shaft and spaced apart from each other in an incremental arrangement. The holes may be sized such that at least one of a safety lockout padlock or a safety lockout hasp can extend through the holes.
Disclosed herein is a method for restricting access to a panelboard. In one embodiment, the method includes: securing a first outer end of a first strap of a panelboard guard assembly to a first edge of a cover of the panelboard; securing a second outer end of a second strap of the panelboard guard assembly to a second edge of a cover of the panelboard, the panelboard guard assembly extending across an access door defined in the cover of the panelboard; coupling a first inner end of the first strap to a second inner end of the second strap via an adjustment mechanism coupled to both inner ends; and adjusting the adjustment mechanism to substantially remove slack in the panelboard guard assembly extending across the access door followed by locking the adjustment mechanism via a safety lockout mechanism.
Depending on the embodiment, the lockout mechanism is at least one of a safety lockout padlock or a safety lockout hasp. The securing the outer ends to the respective edges may include extending a portion of the outer ends behind the panelboard cover at the edges.
Depending on the embodiment, the adjusting the adjustment mechanism to substantially remove slack in the panelboard guard assembly may include rotating the adjustment mechanism relative to the second strap. Alternatively, the adjusting the adjustment mechanism to substantially remove slack in the panelboard guard assembly may include sliding the adjustment mechanism relative to the second strap.
A panelboard guard assembly is disclosed herein. The panelboard guard assembly 10 is designed such that a lockout process can be simplified and some of the challenges faced with the prior art devices and methods can be overcome. Specifically, in one embodiment, the panelboard guard assembly 10 is configured so as to be capable of being applied to most, if not all, panelboards for lockout purposes.
As discussed in detail below, in one embodiment, the panelboard guard assembly 10 is a locking strap assembly intended to enable the use of industry standard lockout or tag-out devices on existing commercial panelboard covers. In particular, the panelboard guard assembly disclosed includes a pair of adjacent straps 20 and 30 coupled together by an adjusting mechanism 40. The adjusting mechanism 40, which allows a user to adjust the length of the panelboard guard 10 to the width of a panelboard or cover on which it is to be secured, includes an aperture 44 or other feature at one end for accepting personal protective equipment (PPE) locking mechanisms.
For a detailed discussion of a first embodiment of the panelboard guard assembly 10, reference is now made to
As illustrated in
In one embodiment, the width of the straps can be, for example, approximately 1 inch and the length of the straps can vary in order to accommodate for differences in panelboard sizes. According to one embodiment, the length of each strap 20, 30 in its final configuration can be about 9⅞ inches. Also, because the panelboard guard assembly is designed to be used as a safety device it should be easily noticeable. Accordingly, the panelboard guard can be powder coated or painted in a color such as, for example, yellow. However, any other color that will make the panelboard guard easy to detect can be used.
The discussion will now turn to the structure of the first strap 20 shown in
Located at the inner second end 24 of the strap 20 is an integrated vertically extending side wall 202 in which an aperture 29 for accepting a threaded member 42 of the adjusting mechanism 40 is formed. As shown in
As illustrated in
As indicated in
The wrap around mounting structure 220 may be formed by appropriately bending one of the ends of the rectangular material from which the strap 20 is constructed so the groove 232 is formed and inserting the short portion 224 of the L-shaped member into the groove. The cantilever portion is formed by the long portion of the L-shaped member extending from the groove along, and parallel to, the bottom surface 28 of the strap 20. Because the outer wall 228 of the groove extends below bottom surface 28 of the strap 20, by flushing the cantilever portion with the bottom of the outer wall of the groove, the gap 280 is defined between the bottom surface 28 of the strap and the cantilever portion into which a panelboard cover can be inserted. According to one embodiment, the outer wall of the groove can extend approximately ⅛ of an inch below the bottom surface of the strap, which in turn provides approximately a ⅛ inch gap 280 into which a panelboard cover can be placed. It should be understood, however, that the gap 280 between the bottom surface of the strap and the cantilevered portion can be modified in order to accommodate different cover thickness over which the panelboard guard is to be placed.
In some embodiments, the long potion 226 of the L-shaped member 222 is generally rectangular in shape and generally continuous along its extents. Alternatively, as shown in
Alternatively, the notch 225 in the long portion 226 of the L-shaped member 222 can be placed directly behind the screw head located in the front of the panelboard cover as shown in
As shown in
Similarly to the first strap 20, the second strap 30 shown in
Now the discussion will turn to the adjusting mechanism 40 located in the center of the panelboard guard 10. As shown in
For a discussion of how the above-discussed elements are assembled together in the panelboard guard device 10, reference is once again made to
The discussion will now turn to a method of employing the panelboard guard 10 to secure a panelboard.
It may be deemed beneficial to protect against the guard 10 being defeated by the removal of the panelboard cover 502 via removal of the screws 506. The guard 10 can be mounted on the panelboard 500 in such a manner as to protect against the guard 10 being defeated by removal of screws. Specifically, the outside edges 508 and 510 of the panelboard cover can be received in the respective gaps 280 with the straps 20 and 30 extending directly over in close proximity to the screw head and the screw shafts being received in the respective notches 225. With the guard 10 so arranged relative to the screws, the screws cannot be rotated outward to any extent that would allow the panelboard cover to be removed.
Alternatively, as shown in
With the guard 10 so engaged with the panelboard cover, the adjusting mechanism 40 is tightened by threading threaded member 42 through the threaded insert 304 so as to bring the opposed faces 29 and 39 of the respective straps 20 and 30 closer together, thereby shortening the overall length of the guard 10 between its opposite ends 12 and 14 in order to pull the straps 20 and 30. By pulling the straps 20 and 30 together in such a manner, the panelboard cover edges 508 and 510 are caused to be deeply received in the respective wrap around structures 220 and 320, thereby preventing the guard 10 from being removed from the panelboard cover and preventing the panelboard access door from being opened. In other words, the panelboard guard is secured across the panelboard by first securing the first and second end 12 and 14 of the panelboard guard under the outside edges of the panelboard cover using the wrap around mounting structures 220 and 320. The straps are then pulled together by threading the threaded member 42 through the threaded insert 304 such that the eyebolt opening 44 is caused to move towards the threaded member 42, thereby bringing the planar faces 29 and 39 towards each other.
As shown in
The adjustment mechanism in
In
The panelboard assembly 10, in
To remove the guard 10 from the panelboard cover, the lockout device is removed from the guard and the above-described installation method is reversed, including reversing the rotation of the threaded member 42 relative to the threaded insert 304 such that the distance between the hole 44 and the threaded insert 304 increases. Such rotation of the threaded member increase the overall length of the guard 10 and allows the wrap around structures 220 and 320 to be disengaged from the respective panelboard cover edges 508 and 510, thereby allowing the guard 10 to be removed from the panelboard and the panelboard access door 504 to be opened.
While the discussion given above with respect to
Although the present invention has been described with reference to preferred embodiments, persons skilled in the art will recognize that changes may be made in form and detail without departing from the spirit and scope of the invention.
Canaday, Timothy Kit, Canaday, Christopher Anthony
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Executed on | Assignor | Assignee | Conveyance | Frame | Reel | Doc |
Mar 12 2012 | CANADAY, TIMOTHY KIT | ADK Electric Corporation | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 037659 | /0512 | |
Mar 13 2012 | CANADAY, CHRISTOPHER ANTHONY | ADK Electric Corporation | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 037659 | /0512 | |
Feb 03 2016 | ADK Electric Corporation | (assignment on the face of the patent) | / |
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